View clinical trials related to Heart Failure NYHA Class IV.
Filter by:In order to determine if NfL can be a prognostic biomarker for VCID, participants will undergo a baseline evaluation consisting of neuropsychological testing and a blood draw with a 12-month follow-up consisting of neuropsychological testing and blood draw. After indicated interest in the study, participants will be screened either in person during a regularly scheduled clinic visit or by phone for eligibility. After consenting, participants will be scheduled for a baseline testing session. One session, lasting about 3 hrs, will include neuropsychological testing and a blood draw. After completion of baseline testing, participants who agree to take part in the clinical trial will begin a 12-week treatment of Ang-(1-7) via daily subcutaneous injections. During the drug treatment, participants will be called weekly to ensure that everything is going well with the injections. After participants have completed the 12-week injection period, participants will be scheduled for a second appointment which will include a blood draw and neuropsychological testing. All participant will be scheduled for a 12-month follow-up, which will include a blood draw and neuropsychological testing. Participants will be called every second month by research staff for a brief update on changes to health status, and to increase compliance with the 12-month follow-up. Our One-Year outcome for this study is to provide early proof-of-concept clinical trial data that will support a larger, more comprehensive NIH funded study on the safety and efficacy of Ang-(1-7) to prevent cognitive impairment in HF patients at risk for developing VCID/ADRD. Our Long-Term outcome is to demonstrate whether plasma NfL exhibits characteristics making it useful as a Prognostic Biomarker to predict cognitive decline in early heart disease-associated VCID and identify pre VCID-symptomatic in individuals with symptomatic HF. Our goal will be to use levels of plasma Nfl as an enrollment enrichment factor in future trials to allow enrollment or stratification of patients more likely to develop VCID or ADRD and be responsive to Ang-(1-7) therapy.
The study aims to test the diagnostic accuracy of native T1 mapping for the diagnosis of cardiac amyloidosis prospectively. The hypothesis is that native T1 mapping with a cut-off value of 1341ms (3 tesla CMR) in older patients with symptomatic heart failure, increased LV wall thickness and elevated cardiac biomarkers is non-inferior to the reference method to diagnose cardiac amyloidosis (CA). As secondary measure, a web-based ATTR probability estimator for the diagnosis of CA will be evaluated.
Preliminary animal studies by ourselves and others suggest that the dietary supplement, nicotinamide riboside (NR), may improve cardiac function in heart failure (HF) by increasing cellular levels of its metabolite, nicotinamide adenine dinucleotide (NAD+, NADH). This Study will address a key gap in current knowledge by assessing the mechanisms through which raising blood and myocardial NAD+ levels in humans mediates changes in mitochondrial function, protein and epigenetic modifications, as well as inflammation. Human myocardium will be obtained after 4-14 days of oral NR supplementation from advanced heart failure patients undergoing elective left ventricular assist device (LVAD) implantation. Positive results would provide evidence to proceed with further studies of NR as a mitochondria-targeted metabolic therapy in heart failure.
The Yale HF Registry is a live EHR based registry that allows for retrospective and real-time monitoring of Heart Failure case across the Yale New Haven Health System.
The two primary goals of it's management are preventing further disease progression(mortality,hospitalizations and deterioration of left ventricular function)and alleviating patient suffering
The Mid-Q Response study is a prospective, multi-center, randomized controlled, interventional, single-blinded, post-market study. The purpose of the Mid-Q Response study is to test the hypothesis that the AdaptivCRT (aCRT) algorithm is superior to standard CRT therapy regarding patient outcomes in CRT indicated patients with moderate QRS duration, preserved atrioventricular (AV) conduction and left bundle branch block (LBBB). The study will be executed at approximately 60 centers in Asia. The subjects will be randomly assigned in a 1:1 ratio to the aCRT ON (Adaptive Bi-V and LV) group or the aCRT OFF (Nonadaptive CRT) group. The primary objective is to test the hypothesis that aCRT ON increases the proportion of patients that improve on the Clinical Composite Score (CCS) compared to aCRT OFF at 6 months of follow-up.
Overall objective is to test whether the 5-weekly family home palliative and end-of-life care (FamPALcare) intervention educational and supportive sessions will improve rural home end-of-life and palliative care (EOLPC) for advanced heart failure at 6 months follow up.
Cardiac Heart Failure Questionnaire HF-Q) to assess the severity of the symptoms of Heart Failure. In this study, modified and translated, the "four-point" questionnaire by Severo and his associates - Heart Failure Questionnaire HF-Q, is used. The HF-Q Heart Failure Questionnaire consists of four closed questions: the first with four possible answers and the other three questions with the possibility of three simple-choice answers.
The "four-point" questionnaire by Severo and his associates was weighted in 2011 in the Portuguese population and aims to characterize the severity of the symptoms of heart failure by providing a way to minimize the reliability of the NYHA classification. The questionnaire consists of four closed questions, three possible single-choice answers, coded 0, 1 or 2, and has been translated into Greek in accordance with the internationally-based methodology, with forward-backward translation.
Ivabradine, a selective inhibitor of the If current in the sinoatrial node, provides heart rate reduction and leads to a reduction in heart failure hospitalizations. For this reason, the American College of Cardiology (ACC) and the American Heart Association (AHA) guidelines provide a class IIa recommendation for ivabradine in stable heart failure patients with LVEF 35% and New York Heart Association (NYHA) class II-III symptoms who are on a beta blocker at maximum tolerated dose with a resting heart rate of 70 beats per minute or greater. While ivabradine leads to improvement in outcomes in stable NYHA class II-III chronic heart failure patients, its role in class IV, stage D heart failure, and cardiogenic shock is less clear. Ivabradine's effect on acute cardiogenic shock has been evaluated by two recent studies. In the MODIFY trial, a randomized control study evaluating ivabradine in patients with multiorgan dysfunction, the addition of ivabradine did not result in significant heart rate reductions or other positive clinical outcomes. However, a small prospective trial demonstrated a significant decrease in heart rate and NT-proBNP with the addition of ivabradine in patients with acute cardiogenic shock on dobutamine. While few data investigate ivabradine's role in acute cardiogenic shock, it has yet to be studied in heart failure patients on long-term inotropic therapy. Inotropes such as dobutamine and milrinone result in tachycardia and may lead to ventricular arrhythmias. Moreover, patients on chronic inotropes are typically off beta blockers and have few pharmacological options available to help reduce heart rates. Ivabradine may have a role in decreasing heart rate and improving outcomes in patients on chronic inotropes. Given the benefits of ivabradine in stable chronic heart failure patients, we plan to perform a study investigating the role of ivabradine in NYHA Stage D patients on home inotropes. Our primary objective is to analyze changes in two cardiac biomarkers, NT-proBNP and high-sensitivity troponin. Our secondary outcomes include changes in noninvasive echocardiographic hemodynamics, changes in arrhythmia burden, and heart failure symptom modification based on 6-minute walk test results.